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Snow Accumulation in a Distributed Hydrological Model PDF

135 Pages·2004·4.93 MB·English
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Snow Accumulation in a Distributed Hydrological Model by Bruce Davison A thesis presented to the University of Waterloo in fulfillment of the thesis requirement for the degree of Master of Applied Science in Civil Engineering Waterloo, Ontario, Canada, 2003 (cid:211) Bruce Davison 2003 I hereby declare that I am the sole author of this thesis. This is a true copy of the thesis, including any required final revisions, as accepted by my examiners. I understand that my thesis may be made electronically available to the public. Bruce Davison ii ABSTRACT The cryosphere is defined as the portions of the earth where water is in solid form. It represents a very important part of the hydrologic cycle, affecting ecological, human and climate systems. A number of component models describing the energy and mass balances of a snowpack have been developed and these component models are finding their way into watershed models and land surface schemes. The purpose of this thesis is to examine the incorporation of a number of snow processes in the coupled land-surface-hydrological model WATCLASS. The processes under consideration were mixed precipitation, variable fresh snow density, maximum snowpack density, canopy interception and snow-covered area (SCA). The first four of these processes were based on similar work done by Fassnacht (2000) on a watershed in Southern Ontario. In the case of this thesis, the work was completed on a basin in Northern Manitoba. A theory of the relationship between snow-covered area and average snow depth was developed and an algorithm was developed to implement this theory in WATCLASS. Of the five snow processes considered, mixed precipitation was found to have the greatest impact on streamflow while the new canopy interception algorithm was found to have the greatest impact on sensible and latent heat fluxes. The development of a new relationship between SCA and average snow depth was found to have a minimal impact in one study case, but a significant impact on the sensible and latent heat fluxes when snow fell on a pack that had begun to melt and was partially free of snow. Further study of these snow processes in land-surface-hydrologic models is recommended. iii ACKNOWLEDGEMENTS I would like to thank Ric Soulis and Steven Fassnacht for their roles in supervising me through this learning process. Ric’s breadth of knowledge and Steve’s attention to detail have provided an excellent experience. I would also like to thank Nick Kouwen for his many insightful comments and discussions on the nature of hydrological modelling. Ken Snelgrove and Frank Seglenieks also deserve thanks for their respective roles in getting me started and keeping me going. I would also like to thank Laura Jones for her help in creating visualization tools. Many other people at the UW hydrology lab also deserve recognition for their friendship and company. Thank you to Erasmo Rodriguez and his family, Jon Bastien, Chang and Cindy Shu, Senan Alattar, Trish Stadnyk, Jeff DeLoyde, Blythe Reiha, Alicia Fogg, Alice Seviora, Erika Klyszejko, Rudy Sung, Allyson Bingeman, Sheri Carlaw, Jayson Innes, Maggie Liu, Genevieve Poitras and Greg Powell. Thank you also to Natalie Voisin for your collaboration with WATCLASS and especially for your friendship. A big thanks also goes to my friends from Waterloo. A number of people in also Saskatchewan deserve thanks. Al Pietroniro has gone far above and beyond the call of duty to help motivate and focus my efforts. The many new friends and acquaintances at the National Hydrology Research Centre have also been very supportive. I would also like to thank Russell Boals for his ongoing support, advice and many interesting discussions on Canada’s water resources community. Of course none of this would have been possible without my family. You deserve the most thanks. iv To the sculptors of the world Ozymandias I met a traveller from an antique land Who said: “Two vast and trunkless legs of stone Stand in the desert. Near them on the sand, Half sunk, a shattered visage lies, whose frown, And wrinkled lip, and sneer of cold command, Tell that its sculptor well those passions read Which yet survive, stamped on these lifeless things, The hand that mocked them, and the heart that fed. And on the pedestal these words appear: ‘My name is Ozymandias, King of Kings: Look upon my works, ye Mighty, and despair!’ Nothing besides remains. Round the decay Of that colossal wreck, boundless and bare The lone and level sands stretch far away.” Percy Bysshe Shelley v TABLE OF CONTENTS ABSTRACT.....................................................................................................................................................................III ACKNOWLEDGEMENTS...........................................................................................................................................IV TABLE OF CONTENTS...............................................................................................................................................VI LIST OF FIGURES......................................................................................................................................................VIII LIST OF TABLES...........................................................................................................................................................X LIST OF EQUATIONS.................................................................................................................................................XI 1. INTRODUCTION...................................................................................................................................................1 1.1 THE HYDROLOGIC CYCLE.....................................................................................................................................1 1.2 HYDROLOGIC MODELLING...................................................................................................................................4 1.2.1 Watershed Modelling...................................................................................................................................6 1.2.2 Atmospheric Modelling...............................................................................................................................6 1.2.3 Coupled Land-Atmosphere Modelling.....................................................................................................7 1.2.4 Error Sources in Hydrological Modelling..............................................................................................9 1.2.5 Process Hydrology and Hydrological Modelling................................................................................10 1.3 SNOW......................................................................................................................................................................11 1.4 COMPONENT SNOW MODELLING.....................................................................................................................14 1.5 SNOW IN HYDROLOGIC AND LAND SURFACE MODELLING..........................................................................15 1.6 OBJECTIVES............................................................................................................................................................16 1.6.1 Investigating Aspects of Model Structure..............................................................................................16 1.6.2 Developing and Analyzing an Algorithm for the Relationship between Snow Depth and Fractional Snowcovered Area...........................................................................................................................16 2. BACKGROUND....................................................................................................................................................17 2.1 SNOW PROCESSES..................................................................................................................................................17 2.2 COMPONENT SNOW MODELS............................................................................................................................18 2.2.1 Energy Balance Components...................................................................................................................19 2.2.2 Mass Balance Components.......................................................................................................................22 2.3 SNOWCOVERED AREA (SCA).............................................................................................................................25 2.3.1 Current Approaches to Snowcovered Area...........................................................................................26 2.3.2 The Problem with Fresh Snow.................................................................................................................28 2.4 THE MODELS.........................................................................................................................................................29 2.4.1 WATFLOOD.................................................................................................................................................29 2.4.2 CLASS 2.6....................................................................................................................................................30 2.4.3 WATCLASS 2.7............................................................................................................................................35 2.5 LAND SURFACE HETEROGENEITY.....................................................................................................................42 3. INVESTIGATING ASPECTS OF MODEL STRUCTURE.............................................................................45 3.1 STUDY AREA AND MODEL DOMAIN................................................................................................................45 3.2 METHOD................................................................................................................................................................49 3.2.1 Forcing Data, Initial Conditions, Parameters and Model Structure...............................................49 3.2.2 Sensitivity Analysis Objective Functions...............................................................................................54 3.3 RESULTS AND DISCUSSION..................................................................................................................................56 vi 3.3.1 Mixed Precipitation...................................................................................................................................57 3.3.2 Variable Fresh Snow Density...................................................................................................................67 3.3.3 Maximum Snowpack Density...................................................................................................................71 3.3.4 Canopy Snow Interception.......................................................................................................................77 3.3.5 Known problems with the model structure............................................................................................80 4. DEVELOPING AND ANALYZING A FRESH SNOW ACCUMULATION ALGORITHM.....................81 4.1 THEORETICAL DEVELOPMENT..........................................................................................................................81 4.2 METHOD................................................................................................................................................................83 4.2.1 Algorithm Development.............................................................................................................................83 4.2.2 Algorithm Testing.......................................................................................................................................93 4.3 RESULTS AND DISCUSSION..................................................................................................................................93 4.3.1 SAC-SDC Runs............................................................................................................................................93 4.3.2 Implications of the New Algorithm..........................................................................................................96 4.3.3 Needed Studies............................................................................................................................................97 5. CONCLUSIONS AND RECOMMENDATIONS...........................................................................................100 Conclusions.........................................................................................................................................................100 Recommendations...............................................................................................................................................101 APPENDIX A. CLASS 2.6 SNOW ENERGY BALANCE MODEL............................................................103 APPENDIX B. SAC-SDC FORTRAN CODE................................................................................................109 APPENDIX C. SAC-SDC TESTING................................................................................................................114 REFERENCES..............................................................................................................................................................119 vii LIST OF FIGURES Figure 1-1: The water cycle emphasizing snow and ice processes. (Vörösmarty et al. 2001)..............................2 Figure 1-2: A Classification of Watershed Hydrologic Models................................................................................4 Figure 1-3: Canada’s Model Coupling Strategy..........................................................................................................8 Figure 1-4: Error Sources in Land-Surface-Hydrological Modelling........................................................................9 Figure 1-5: A Modeller’s Perspective on Integrating Process and Modelling Hydrology.................................10 Figure 2-1: A Block of Snow.........................................................................................................................................19 Figure 2-2: SCA vs. Time SDC......................................................................................................................................26 Figure 2-3: SCA vs. SWE SDC.....................................................................................................................................26 Figure 2-4: Snow Depth vs. SCA SDC........................................................................................................................27 Figure 2-5: Snow Depth vs. SCA SDC theory development (Donald, 1992).........................................................27 Figure 2-6: Conceptual Model of WATFLOOD Hydrology (Kouwen and Mousavi 2002)................................29 Figure 2-7: CLASS Hydrology and Energy (aSellers et al. 1997).............................................................................31 Figure 2-8: CLASS Snow Processing for One Time Step.........................................................................................32 Figure 2-9: WATCLASS Surface and Subsurface Hydrology................................................................................36 Figure 2-10: Interflow from a Grid Cell (Soulis et al. 2000).......................................................................................37 Figure 2-11: Interflow Components (Soulis et al. 2000)............................................................................................37 Figure 2-12: Snow Mass Balance Bookkeeping.........................................................................................................41 Figure 2-13: Grouped Response Units (Kouwen et al. 1993)...................................................................................42 Figure 2-14: CLASS 2.6 Representation of Land-Surface Heterogeneity..............................................................43 Figure 2-15: WATCLASS 2.7 Representation of Land-Surface Heterogeneity....................................................44 Figure 3-1: BOREAS Study Region (From: BOREAS Web Site 2003)....................................................................46 Figure 3-2: Northern Study Area (Snelgrove 2002)...................................................................................................47 Figure 3-3: NSA Model Domain...................................................................................................................................48 Figure 3-4: Measured Soil Moisture at the NSA-OBS site (Cuenca, et al. 1999)..................................................51 Figure 3-5: Base Case Run Hydrographs....................................................................................................................53 Figure 3-6: Potential Mixed Precipitation Events at the NSA – OBS site..............................................................58 Figure 3-7: Mixed Precipitation Algorithm Impact on River Flows.........................................................................60 Figure 3-8: Snow Mass Balance Analysis of the Mixed Precipitation Algorithm................................................62 Figure 3-9: GRU Flow Balance Analysis of the Mixed Precipitation Algorithm...................................................63 Figure 3-10: Soil Water and Ice Analysis of the Mixed Precipitation Algorithm..................................................64 Figure 3-11: Soil Temperature Analysis of the Mixed Precipitation Algorithm....................................................65 Figure 3-12: Surface Energy Analysis of the Mixed Precipitation Algorithm.......................................................67 Figure 3-13: Streamflow Impact of the Fresh Snow Density Algorithm.................................................................68 Figure 3-14: GRU Flow Balance Analysis of the Fresh Snow Density Algorithm................................................68 Figure 3-15: Soil Water and Ice Analysis of the Fresh Snow Density Algorithm................................................69 Figure 3-16: Soil Temperature Analysis of the Fresh Snow Density Algorithm...................................................69 Figure 3-17: Surface Energy Impact of the Fresh Snow Density Algorithm..........................................................70 Figure 3-18: Snow Mass Impact of the Fresh Snow Density Algorithm................................................................70 Figure 3-19: Streamflow Impact of the Maximum Snowpack Density Algorithm..................................................71 Figure 3-20: Forest GRU: Snow Mass Analysis of the Maximum Snowpack Density Algorithm.....................72 Figure 3-21: Open GRU: Snow Mass Analysis of the Maximum Snowpack Density Algorithm.......................72 Figure 3-22: Forest GRU Flow Analysis of the Maximum Snowpack Density Algorithm...................................73 Figure 3-23: Open GRU Flow Analysis of the Maximum Snowpack Density Algorithm.....................................73 Figure 3-24: Forest GRU: Soil Water/Ice Analysis of the Maximum Snowpack Density Algorithm.................74 Figure 3-25: Open GRU: Soil Water/Ice Analysis of the Maximum Snowpack Density Algorithm...................74 Figure 3-26: Forest GRU: Soil Temperature Analysis of the Maximum Snowpack Density Algorithm.............75 Figure 3-27: Open GRU: Soil Temperature Analysis of the Maximum Snowpack Density Algorithm..............75 Figure 3-28: Forest GRU: Surface Energy Analysis of the Maximum Snowpack Density Algorithm................76 Figure 3-29: Open GRU: Surface Energy Analysis of the Maximum Snowpack Density Algorithm.................76 Figure 3-30: Streamflow Analysis of the Canopy Snow Interception Algorithm.................................................78 viii Figure 3-31: Snow Mass Analysis of the Canopy Snow Interception Algorithm................................................78 Figure 3-32: GRU Flow Impact of the Canopy Snow Interception Algorithm.......................................................79 Figure 3-33: Surface Energy Impact of the Canopy Snow Interception Algorithm..............................................79 Figure 4-1: Variable Depth Distribution Hypothesis.................................................................................................82 Figure 4-2: SAC-SDC.....................................................................................................................................................82 Figure 4-3: SAC-SDC Zones.........................................................................................................................................83 Figure 4-4: SAC-SDC Algorithm Overview................................................................................................................84 Figure 4-5: “New Snow” Scenarios..............................................................................................................................85 Figure 4-6: “New Snow” Portion of the Chart............................................................................................................86 Figure 4-7: “Depletion” Scenarios...............................................................................................................................87 Figure 4-8: “Snow Depletion” Portion of the Chart...................................................................................................89 Figure 4-9: “Snow-on-snow” Scenarios......................................................................................................................90 Figure 4-10: “Snow-on-snow” Portion of the Chart..................................................................................................92 Figure 4-11: Test Grid.....................................................................................................................................................93 Figure 4-12: SAC-SDC comparison, May 18th to May 26th, 1996.............................................................................94 Figure 4-13: SDC zones..................................................................................................................................................98 Figure 4-14: More SAC-SDC zones.............................................................................................................................98 ix LIST OF TABLES Table 1-1: The Earth's Water Stocks (Shiklomanov 1993)..........................................................................................3 Table 1-2: Description of Snow Classes (Sturm et al. 1995)....................................................................................13 Table 3-1: Landcover Statistics for the NSA..............................................................................................................48 Table 3-2: March 31st, 1996 Initial Condition and Parameter Ranges for Sensitive Parameters (units described in the above text)...................................................................................................................................................49 Table 3-3: Static Initial Conditions for the 1996 Melt Run (April 1 1996)...............................................................50 Table 3-4: Base Case Run Values for Sensitive Parameters.....................................................................................53 Table 3-5: Structural Code Change Runs....................................................................................................................55 Table 3-6: Model Structure Sensitivity Analysis ......................................................................................................56 Table 3-7: Potential Mixed Precipitation Event Characteristics...............................................................................58 Table 4-1: Model Comparison Runs............................................................................................................................93 Table 4-2: Depletion (Jan 1 - Jun 30) and Accumulation (Jul 1 - Dec 31) statistics for 1994...............................95 Table 4-3: 100% Snowcovered Area to 5% Snowcovered Area in the FEN..........................................................96 Table 4-4: SAC-SDC Scenario Categories..................................................................................................................99 Table 5-1: Key Model Structure Sensitivity Results...............................................................................................100 x

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hydrology lab also deserve recognition for their friendship and company. Thank you to Erasmo and sudden coronary death. Am J Cardiol 1996;
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